阅读说明：本技术 一种金属打磨除尘装置 (Metal dust collector that polishes ) 是由 向艳菲 于 2021-08-19 设计创作，主要内容包括：本发明公开了一种金属打磨除尘装置,包括横向设置的方管,所述方管一端的管口处设有第一过滤网板,另一端管口处设有第二过滤网板,所述方管上侧设有第一液压缸,所述第一液压缸靠近方管的一侧设有竖向设置的第一输出轴,所述第一输出轴贯穿方管设置在方管内,所述第一输出轴设置在方管内的一端连接有除尘组件,所述除尘组件包括支架,所述支架内转动竖向设有多个用于产生静电并吸附粉尘的静电吸附组件和用于消除静电吸附组件上静电的除静电组件,所述除尘组件还包括使静电吸附组件转动的转动组件,所述方管下方设有与方管内部相连通的清洗组件,实现便于除尘设备清洁的作用,保持除尘设备的除尘的效果。(The invention discloses a metal polishing and dust removing device, which comprises a square pipe which is transversely arranged, wherein a first filter screen plate is arranged at the pipe orifice at one end of the square pipe, a second filter screen plate is arranged at the pipe orifice at the other end of the square pipe, a first hydraulic cylinder is arranged on the upper side of the square pipe, a first output shaft which is vertically arranged is arranged on one side of the first hydraulic cylinder close to the square pipe, the first output shaft penetrates through the square pipe and is arranged in the square pipe, one end of the first output shaft which is arranged in the square pipe is connected with a dust removing component, the dust removing component comprises a bracket, a plurality of electrostatic adsorption components for generating static electricity and adsorbing dust and static removing components for removing the static electricity on the electrostatic adsorption components are vertically arranged in the bracket in a rotating way, the dust removing component also comprises a rotating component for rotating the electrostatic adsorption components, a cleaning component communicated with the interior of the square pipe is arranged below the square pipe, and the effect of facilitating the cleaning of dust removing equipment is realized, the dust removal effect of the dust removal equipment is maintained.)

1. A metal polishing and dust removing device is characterized by comprising a square pipe which is transversely arranged, wherein a first filter screen plate is arranged at a pipe orifice at one end of the square pipe, a second filter screen plate is arranged at a pipe orifice at the other end of the square pipe, a first hydraulic cylinder is arranged on the upper side of the square pipe, a first output shaft which is vertically arranged is arranged on one side of the first hydraulic cylinder close to the square pipe, the first output shaft penetrates through the square pipe and is arranged in the square pipe, one end of the first output shaft which is arranged in the square pipe is connected with a dust removing assembly, the dust removing assembly comprises a support, a plurality of electrostatic adsorption assemblies which are used for generating static electricity and adsorbing dust and a static removing assembly which is used for removing the static electricity on the electrostatic adsorption assemblies are vertically arranged in the support, the dust removing assembly further comprises a rotating assembly which enables the electrostatic adsorption assemblies to rotate, a cleaning assembly which is communicated with the inside of the square pipe is arranged below the square pipe, and the cleaning assembly is just right positioned below the dust removing assembly, first pneumatic cylinder is used for with the dust removal subassembly from square intraductal propelling movement to wash in the subassembly, be equipped with the fan between dust removal subassembly and the first filter screen board, be equipped with the magnetic adsorption subassembly that is used for adsorbing metal particle between dust removal subassembly and the second filter screen board, the side detachable sets up in square intraductally on the side is run through square to the adsorption subassembly.

2. The metal grinding and dust removing device of claim 1, wherein the electrostatic absorption assembly comprises an iron cylinder vertically arranged between supports, the upper end and the lower end of the iron cylinder are rotatably connected with the supports through first rotating shafts respectively, a first motor is arranged in the iron cylinder, the first motor is connected with a first rotating wheel through a second output shaft vertically arranged, a second rotating wheel with the axial direction being the same as that of the first rotating wheel is arranged on one side of the outer wall of the first rotating wheel, one side of the second rotating wheel close to the first motor is connected with the outer wall of the first motor through a support rod which is rotatably connected, the first rotating wheel and the second rotating wheel are connected through a first belt, a conductive brush is arranged in the iron cylinder, a brush handle of the conductive brush is connected with the iron cylinder, a brush head of the conductive brush is in contact with the outer wall of the first belt, and fur is arranged around the outer wall of the iron cylinder.

3. The metal sanding dust removal device of claim 2, wherein the first rotating shaft is an insulating structural member, the first and second rotating wheels are glass structural members, and the first belt is a rubber structural member.

4. The metal grinding and dust removing device of claim 2, wherein the static electricity removing assembly comprises a second hydraulic cylinder arranged on the upper side of the iron cylinder, one side of the second hydraulic cylinder, which is far away from the iron cylinder, is connected with a first conductive plate through a vertically arranged third output shaft, one side of the first conductive plate, which is far away from the second hydraulic cylinder, is provided with a plurality of conductive copper wires in an erected mode, the static electricity removing assembly further comprises a second conductive plate, the second conductive plate is embedded in the top wall of the support and just positioned on the upper side of the first conductive plate, the second conductive plate is electrically connected with a first lead used for grounding, and the first conductive plate is electrically connected with the iron cylinder.

5. The metal sanding dust removal device of claim 2, wherein the rotating assembly includes a third wheel and a second motor, the third rotating wheel is rotationally arranged at the upper side of the bracket, the second motor is arranged at one side of the third rotating wheel, which is far away from the bracket, the second motor is connected with the third rotating wheels through a fourth output shaft which is vertically arranged, the rotating assembly further comprises a plurality of fourth rotating wheels which are rotatably arranged on the upper side of the bracket, each fourth rotating wheel is respectively connected with one of the iron cylinders arranged on the bracket, one side of the fourth rotating wheel, which is close to the iron cylinder, is connected with the first rotating shaft through a second rotating shaft penetrating bracket, the third rotating wheel is connected with the fourth rotating wheel through a second belt, and the axial direction of the third rotating wheel and the fourth rotating wheel is vertical, and one end of a first output shaft on the first hydraulic cylinder, which is arranged in the square tube, is connected with the support.

6. The metal grinding and dust removing device according to claim 1, wherein the magnetic adsorption component comprises a mounting frame, one side frame opening of the mounting frame faces the first filter screen plate, the other side frame opening of the mounting frame faces the second filter screen plate, the magnetic adsorption component further comprises a magnetic part, the magnetic part comprises two fixing plates which are arranged in a vertical symmetrical and transverse mode, a plurality of magnetic rods which are arranged in a vertical mode are connected between the two fixing plates, and the magnetic part is detachably arranged on the mounting frame.

7. The metal grinding and dust removing device of claim 1, wherein the cleaning assembly comprises a cleaning tank, a through hole is formed in the lower side wall of the square tube, a tank opening of the cleaning tank is located on the lower side of the through hole, the through hole allows the support to move from the square tube into the cleaning tank, two sliding holes which are recessed inwards are transversely formed in the wall of the through hole, the two sliding holes are symmetrically arranged on two sides of the through hole respectively, orifices of the sliding holes are communicated with the through hole, the cleaning assembly further comprises sliding plates which are respectively slidably arranged in the two sliding holes, the two sliding plates are jointly used for closing the through hole, a third hydraulic cylinder is arranged below the square tube, the third hydraulic cylinder is connected with the sliding plates through a fifth output shaft which is transversely arranged, the third hydraulic cylinder is used for driving the sliding plates to move in the sliding holes, and a plurality of atomizing nozzles are arranged on the tank wall of the cleaning tank, and a second grounded lead is electrically connected to the cleaning pool.

8. The metal sanding dust removal device of claim 2, further comprising a heat blower on the frame, the heat blower being disposed between the plurality of electrostatic adsorption modules.

Technical Field

The invention relates to the technical field of metal processing, in particular to a metal polishing and dust removing device.

Background

In the industry, metal has always occupied an important position, and metalworking is an important ring among them, however, metal can produce a lot of pieces in the process of polishing, waste material and a large amount of dust that is pervaded in the air, and these dusts if not in time handle not only can pollute the environment, more can seriously harm workshop workman's health, consequently, dust removal is indispensable in metalworking polishing process, and the dust collecting equipment in the market now is clean comparatively inconvenient after long-term the use, and the time can influence the dust removal effect just afterwards.

Disclosure of Invention

The invention mainly aims to provide a metal polishing and dust removing device and aims to solve the technical problem that existing dust removing equipment is inconvenient to clean in the prior art.

In order to achieve the purpose, the metal polishing and dust removing device comprises a square pipe which is transversely arranged, a first filter screen plate is arranged at a pipe orifice at one end of the square pipe, a second filter screen plate is arranged at a pipe orifice at the other end of the square pipe, a first hydraulic cylinder is arranged on the upper side of the square pipe, a first output shaft which is vertically arranged is arranged on one side of the first hydraulic cylinder close to the square pipe and penetrates through the square pipe to be arranged in the square pipe, one end of the first output shaft which is arranged in the square pipe is connected with a dust removing assembly, the dust removing assembly comprises a support, a plurality of electrostatic adsorption assemblies for generating static electricity and adsorbing dust and a static removing assembly for removing the static electricity on the electrostatic adsorption assemblies are vertically arranged in the support in a rotating mode, the dust removing assembly further comprises a rotating assembly for rotating the electrostatic adsorption assemblies, and a cleaning assembly communicated with the inside of the square pipe is arranged below the square pipe, the cleaning assembly is just in time located dust removal assembly below, first pneumatic cylinder is used for managing the pipe pushing from square with dust removal assembly in the cleaning assembly, be equipped with the fan between dust removal assembly and the first filter screen board, be equipped with the magnetic adsorption subassembly that is used for adsorbing metal particles between dust removal assembly and the second filter screen board, the magnetic adsorption subassembly runs through side pipe side face detachable and sets up in the square pipe.

Preferably, the electrostatic absorption subassembly includes the vertical iron cylinder that sets up between the support, both ends are connected through first axis of rotation and leg joint respectively about the iron cylinder, be equipped with first motor in the iron cylinder, first motor is connected with first runner through the second output shaft of vertical setting, first runner outer wall one side is equipped with the second runner of axle center direction and first runner syntropy, one side that the second runner is close to first motor is connected with first motor outer wall through the bracing piece of rotating the connection, be connected through first belt between first runner and the second runner, be equipped with electrically conductive brush in the iron cylinder, electrically conductive brush's brush holder is connected with the iron cylinder, and the brush head contacts with first belt outer wall, the iron cylinder outer wall encircles and is equipped with the fur.

Preferably, the first rotating shaft is an insulating structural member, the first rotating wheel and the second rotating wheel are glass structural members, and the first belt is a rubber structural member.

Preferably, the subassembly destatics is including setting up the second pneumatic cylinder of side on the iron cylinder, one side that the second pneumatic cylinder deviates from the iron cylinder is connected with first current conducting plate through the third output shaft of vertical setting, one side that first current conducting plate deviates from the second pneumatic cylinder is erect and is equipped with many electrically conductive copper wires, the subassembly destatics still includes the second current conducting plate, the setting is inlayed at the support roof and just in time is located first current conducting plate upside to the second current conducting plate, second current conducting plate electricity is connected with the first wire that is used for ground connection, first current conducting plate is connected with the iron cylinder electricity.

Preferably, the rotating assembly comprises a third rotating wheel and a second motor, the third rotating wheel is rotatably arranged on the upper side of the support, the second motor is arranged on one side of the third rotating wheel, which deviates from the support, the second motor is connected with the third rotating wheel through a vertically arranged fourth output shaft, the rotating assembly further comprises a plurality of fourth rotating wheels rotatably arranged on the upper side of the support, each fourth rotating wheel is respectively connected with one of the iron cylinders arranged on the support, one side of each fourth rotating wheel, which is close to the iron cylinder, penetrates through the support through the second rotating shaft and is connected with the first rotating shaft, the third rotating wheels and the fourth rotating wheels are connected through a second belt, the axial directions of the third rotating wheels and the fourth rotating wheels are vertical, and one end of the first output shaft arranged in the square tube on the first hydraulic cylinder is connected with the support.

Preferably, the magnetic adsorption component comprises an installation frame, one side frame opening of the installation frame faces the first filter screen plate, the other side frame opening of the installation frame faces the second filter screen plate, the magnetic adsorption component further comprises a magnetic part, the magnetic part comprises two fixing plates which are vertically and symmetrically transversely arranged, the two fixing plates are connected with a plurality of magnetic rods which are vertically arranged, and the magnetic part is detachably arranged on the installation frame.

Preferably, the cleaning component comprises a cleaning pool, a through hole is arranged on the lower side wall of the square tube, a pool opening of the cleaning pool is positioned on the lower side of the through hole, the through hole is used for the support to move into the cleaning pool from the square tube, two sliding holes which are inwards sunken are transversely arranged on the wall of the through hole, the two sliding holes are respectively symmetrically arranged on the two sides of the through hole, the hole opening of the sliding hole is communicated with the through hole, the cleaning assembly also comprises sliding plates which are respectively arranged in the two sliding holes in a sliding way, the two sliding plates are jointly used for sealing the through hole, a third hydraulic cylinder is arranged below the square tube and is connected with the sliding plate through a fifth output shaft which is transversely arranged, the third hydraulic cylinder is used for driving the sliding plate to move in the sliding hole, a plurality of atomizing nozzles are arranged on the wall of the cleaning pool, and a second grounded wire is electrically connected to the cleaning pool.

Preferably, the support is also provided with a heat blower, and the heat blower is arranged among the plurality of electrostatic adsorption components.

In the technical scheme of the invention, the fan sucks the air outside the square tube into the square tube, the electrostatic adsorption component can generate static electricity to adsorb most dust particles in the air, the magnetic adsorption component can adsorb metal particles which are not adsorbed by the electrostatic adsorption component through magnetism, after the first hydraulic cylinder sends the electrostatic adsorption component into the cleaning component, the static electricity on the electrostatic adsorption component is led out and eliminated by the static electricity removing component, so that the static electricity removing component no longer contains static electricity, the electrostatic adsorption component is rotated by the rotating component, dust particles adsorbed on the electrostatic adsorption component are thrown out to the space range of the cleaning component, the cleaning component humidifies dust diffused in the air, the dust drops, and the cleaning effect on the electrostatic adsorption component is realized, therefore, the cleaning effect of the dust removing equipment is further realized, and the dust removing effect of the dust removing equipment is kept.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the dust removal assembly of the present invention;

FIG. 3 is a schematic structural diagram of an electrostatic adsorption assembly according to the present invention;

FIG. 4 is a partial enlarged structural view of the area A in FIG. 3 according to the present invention;

FIG. 5 is an enlarged view of a portion of the area B in FIG. 2, which is also a view illustrating the structure of the static discharge device according to the present invention;

FIG. 6 is a schematic view of the rotating assembly of the present invention;

FIG. 7 is a schematic structural diagram of a magnetic attraction component according to the present invention;

fig. 8 is a partial enlarged structural view of the region C in fig. 1 according to the present invention.

The reference numbers illustrate:

1. a square tube; 1a, a first filter screen plate; 1b, a second filter screen plate; 1c, a fan; 1d, a slide hole; 2. a first hydraulic cylinder; 3. a magnetic adsorption component; 31. installing a frame; 32. a fixing plate; 33. a magnetic bar; 4. a dust removal assembly; 41. an electrostatic adsorption component; 411. an iron cylinder; 412. a first motor; 413. a first rotating shaft; 414. a first runner; 415. a second runner; 416. a support bar; 417. a first belt; 418. a conductive brush; 419. fur; 42. a static electricity eliminating component; 421. a second hydraulic cylinder; 422. a first conductive plate; 423. a conductive copper wire; 424. a second conductive plate; 43. a rotating assembly; 431. a second motor; 432. a third rotating wheel; 433. a fourth rotating wheel; 434. a second rotating shaft; 44. a support; 5. cleaning the assembly; 51. a cleaning tank; 52. a third hydraulic cylinder; 53. a slide plate; 54. an atomizing spray head; 6. an air heater.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that all the directional indicators (such as up, down, left, right, front, and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the movement situation, etc. in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are only for descriptive purposes and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "connected," "secured," and the like are to be construed broadly, and for example, "secured" may be a fixed connection, a removable connection, or an integral part; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In addition, the technical solutions in the embodiments of the present invention may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination of technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

The invention provides a metal polishing and dust removing device.

Referring to fig. 1 to 8, the metal polishing and dust removing device includes a square tube 1 disposed horizontally, a first filter screen 1a is disposed at a pipe orifice of one end of the square tube 1, a second filter screen 1b is disposed at a pipe orifice of the other end of the square tube 1, a first hydraulic cylinder 2 is disposed on an upper side of the square tube 1, a first output shaft disposed vertically is disposed on one side of the first hydraulic cylinder 2 close to the square tube 1, the first output shaft penetrates the square tube 1 and is disposed in the square tube 1, a dust removing assembly 4 is connected to one end of the first output shaft disposed in the square tube 1, the dust removing assembly 4 includes a bracket 44, a plurality of electrostatic adsorption assemblies 41 for generating static electricity and adsorbing dust and a static removing assembly 42 for removing static electricity on the electrostatic adsorption assembly 41 are vertically disposed in the bracket 44, the dust removing assembly 4 further includes a rotating assembly 43 for rotating the electrostatic adsorption assembly 41, a cleaning assembly 5 communicated with the inside of the square tube 1 is disposed below the square tube 1, cleaning assembly 5 just in time is located cleaning assembly 4 below, first pneumatic cylinder 2 is used for managing cleaning assembly 4 from square pipe 1 propelling movement to cleaning assembly 5 in, be equipped with between cleaning assembly 4 and the first filter screen board 1a be used for to fan 1c that induced drafts in the square pipe 1, be equipped with between cleaning assembly 4 and the second filter screen board 1b and be used for adsorbing metal particle's magnetic adsorption subassembly 3, magnetic adsorption subassembly 3 runs through square pipe 1 and goes up side detachable and set up in square pipe 1.

In the technical scheme of the invention, the fan 1c sucks the air outside the square tube 1 into the square tube 1, the electrostatic adsorption component 41 can generate static electricity to adsorb most dust particles in the air, the magnetic adsorption component 3 can magnetically adsorb larger metal particles which are not adsorbed by the electrostatic adsorption component 41, after the electrostatic adsorption component 41 is sent into the cleaning component 5 by the first hydraulic cylinder 2, the static electricity on the electrostatic adsorption component 41 is led out and eliminated by the static electricity removing component 42, so that the static electricity is not contained in the static electricity removing component 42 any more, the rotating component 43 rotates the electrostatic adsorption component 41 to throw out the dust particles adsorbed on the electrostatic adsorption component 41 to the space range of the cleaning component 5, the cleaning component 5 humidifies the dust diffused in the air, the dust falls off, the cleaning effect of the electrostatic adsorption component 41 is realized, and the cleaning effect of the dust removing equipment is further realized, the dust removal effect of the dust removal equipment is maintained.

Referring to fig. 3, the electrostatic absorption assembly 41 includes an iron cylinder 411 vertically disposed between the brackets 44, the upper and lower ends of the iron cylinder 411 are rotatably connected to the brackets 44 through first rotating shafts 413, a first motor 412 is disposed in the iron cylinder 411, the first motor 412 is connected to a first rotating wheel 414 through a second output shaft vertically disposed, a second rotating wheel 415 having an axial direction same as that of the first rotating wheel 414 is disposed on one side of an outer wall of the first rotating wheel 414, one side of the second rotating wheel 415 close to the first motor 412 is connected to an outer wall of the first motor 412 through a support rod 416 rotatably connected, the first rotating wheel 414 is connected to the second rotating wheel 415 through a first belt 417, a conductive brush 418 is disposed in the iron cylinder 411, a brush holder of the conductive brush 418 is connected to the iron cylinder 411, the brush head is in contact with an outer wall of the first belt 417, a fur 419 is disposed around the outer wall of the iron cylinder 411, the first motor 412 drives the first rotating wheel 414 to rotate, the first rotating wheel 414 drives the second rotating wheel 415 to rotate through the first belt 417 when rotating, the first rotating wheel 414 and the second rotating wheel 415 rub with the first belt 417 when rotating, so that the first belt 417 generates static electricity, the conductive brush 418 can conduct the static electricity on the first belt 417 to the iron cylinder 411 and finally transmit the static electricity to the fur 419 through the conductivity of the iron cylinder 411, so that the fur 419 is charged with the static electricity, dust in the air can be adsorbed after the fur 419 is charged with the static electricity, and the dust in the air is attached to the fur 419 to play a role of dust removal.

Referring to fig. 3, the first rotating shaft 413 is an insulating structure, the first rotating wheel 414 and the second rotating wheel 415 are glass structures, and the first belt 417 is a rubber structure, so that static electricity on the fur 419 can be prevented from being conducted to the bracket 44 according to the insulating property of the first rotating shaft 413, thereby preventing the dust adsorption effect of the fur 419 from being affected, and the first belt 417 rotates on the first rotating wheel 414 and the second rotating wheel 415 according to the principle that static electricity is generated by mutual friction between glass and rubber, so that the first belt 417 can generate static electricity.

Referring to fig. 3 and 5, the static electricity removing assembly 42 includes a second hydraulic cylinder 421 disposed on the upper side of the iron cylinder 411, one side of the second hydraulic cylinder 421 facing away from the iron cylinder 411 is connected to a first conductive plate 422 through a vertically disposed third output shaft, one side of the first conductive plate 422 facing away from the second hydraulic cylinder 421 is vertically disposed with a plurality of conductive copper wires 423, the static electricity removing assembly 42 further includes a second conductive plate 424, the second conductive plate 424 is mounted on the top wall of the bracket 44 and is located right above the first conductive plate 422, the second conductive plate 424 is electrically connected to a first conductive wire for grounding, the first conductive plate 422 is electrically connected to the iron cylinder 411 and can conduct static electricity on the iron cylinder 411 to the first conductive plate 422, the second hydraulic cylinder 421 can move the first conductive plate 422 towards a side far away from or close to the second conductive plate 424, after the first conductive plate 422 approaches the second conductive plate 424 and the conductive copper wire 423 on the first conductive plate 422 contacts the second conductive plate 424, the static electricity on the iron cylinder 411 can be conducted to the second conductive plate 424, and the second conductive plate 424 is grounded, so that the iron cylinder 411 and the fur 419 at the contact position lose the static electricity and the fur 419 can adsorb dust after the conductive copper wire 423 contacts the second conductive plate 424, thereby facilitating the subsequent cleaning of the dust attached to the fur 419.

Referring to fig. 3 and 6, the rotating assembly 43 includes a third rotating wheel 432 and a second motor 431, the third rotating wheel 432 is rotatably disposed on the upper side of the bracket 44, the second motor 431 is disposed on the side of the third rotating wheel 432 away from the bracket 44, the second motor 431 is connected to the third rotating wheel 432 through a vertically disposed fourth output shaft, the rotating assembly 43 further includes a plurality of fourth rotating wheels 433 rotatably disposed on the upper side of the bracket 44, each of the fourth rotating wheels 433 is respectively connected to one of the iron cylinders 411 disposed on the bracket 44, one side of the fourth rotating wheel 433 close to the iron cylinder 411 is connected to the first rotating shaft 413 through the bracket 44 by a second rotating shaft 434, the third rotating wheel 432 is connected to the fourth rotating wheel 433 by a second belt, the axial directions of the third rotating wheel 432 and the fourth rotating wheel 433 are vertical, one end of the first output shaft of the first hydraulic cylinder 2 disposed in the square pipe 1 is connected to the bracket 44, the second motor 431 can drive the third rotating wheel 432 to rotate, the third rotating wheel 432 drives the fourth rotating wheel 433 to rotate through the second belt when rotating, the fourth rotating wheel 433 rotates to enable the iron cylinder 411 to rotate through the second rotating shaft 434 and the first rotating shaft, the iron cylinder 411 rotates to throw away dust attached to the fur 419 through the action of centrifugal force, and the dust is separated from the fur 419 to clean the fur 419.

Referring to fig. 7, the magnetic adsorption component 3 includes a mounting frame 31, a frame opening of one side of the mounting frame 31 faces the first filter screen 1a, a frame opening of the other side faces the second filter screen 1b, the magnetic adsorption component 3 further comprises a magnetic part, the magnetic part comprises two fixing plates 32 which are symmetrically arranged up and down and transversely, a plurality of magnetic rods 33 which are vertically arranged are connected between the two fixing plates 32, the magnetic part is detachably arranged on the mounting frame 31, most of the dust with metal particles can be adsorbed by the dust removing component 4 after the dust passes through the dust removing component 4, but some metal particles with larger diameter are not absorbed by the dust-removing assembly 4, when the air passes through the magnetic bar 33, the magnetic rod 33 can adsorb metal particles to further remove dust, and the magnetic part can be taken down from the mounting frame 31 to clean dust on the magnetic rod 33 conveniently.

Referring to fig. 1 and 8, the cleaning assembly 5 includes a cleaning tank 51, a through hole is formed in a lower side wall of the square tube 1, a tank opening of the cleaning tank 51 is located at a lower side of the through hole, the through hole allows the support 44 to move into the cleaning tank 51 from the square tube 1, two sliding holes 1d recessed inwards are transversely formed in a wall of the through hole, the two sliding holes 1d are respectively symmetrically arranged at two sides of the through hole, an orifice of the sliding hole 1d is communicated with the through hole, the cleaning assembly 5 further includes sliding plates 53 respectively slidably arranged in the two sliding holes 1d, the two sliding plates 53 are commonly used for sealing the through hole, a third hydraulic cylinder 52 is arranged below the square tube 1, the third hydraulic cylinder 52 is connected with the sliding plate 53 through a fifth output shaft transversely arranged, the third hydraulic cylinder 52 is used for driving the sliding plate 53 to move in the sliding hole 1d, a plurality of atomizing nozzles 54 are arranged on a tank wall of the cleaning tank 51, the cleaning pool 51 is electrically connected with a grounded second lead, when the electrostatic adsorption dust removal assembly 4 on the bracket 44 is cleaned, the third hydraulic cylinder 52 pulls the sliding plate 53 towards the side away from each other, then the first hydraulic cylinder 2 pushes the bracket 44 to penetrate through the through hole and extend into the cleaning pool 51, after the bracket 44 is completely positioned in the cleaning pool 51, the third hydraulic cylinder 52 pushes the sliding plate 53 towards the side close to each other, so that the bracket 44 is sealed in the cleaning pool 51, the bracket 44 is positioned at the joint of the first lead and the wall of the cleaning pool 51 after the bracket 44 is positioned in the cleaning pool 51, the bracket 44 transmits the static electricity on the iron cylinder 411 to the cleaning pool 51 through the first lead, and the grounding second lead is connected with the cleaning pool 51, so that the static electricity can be transmitted to the ground to realize the effect of eliminating the static electricity on the iron cylinder 411, after the static electricity is removed from the iron cylinder 411, the second motor 431 drives the electrostatic adsorption assembly 41 to rotate, the dust attached to the fur 419 is thrown out, the atomizing nozzles 54 spray water mist to spray the dust which is diffused in the space of the cleaning pool 51, and the weight of the moisture attached to the dust particles is increased, so that the dust particles fall from the air to the bottom of the cleaning pool 51, thereby realizing the cleaning effect on the dust removal component 4.

Referring to fig. 2, the hot air blower 6 is further arranged on the bracket 44, the hot air blower 6 is arranged among the plurality of electrostatic adsorption components 41, the fur 419 is wetted by the water after passing through the cleaning component 5, the fur 419 can be dried by the hot air blower 6, the fur 419 is dried again, the wetted fur 419 becomes a conductor, and the fur 419 cannot adsorb dust in an electrostatic manner.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.